Stock Enhancement (stock + enhancement)

Distribution by Scientific Domains


Selected Abstracts


The enhancement of abalone stocks: lessons from Japanese case studies

FISH AND FISHERIES, Issue 3 2008
Katsuyuki Hamasaki
Abstract The dramatic declines in abalone Haliotis spp. fishery production have been documented all over the world. Release of hatchery-reared juveniles into natural habitats has been considered as one measure to sustain and/or augment the current fishery production of abalone, as well as to restore collapsed abalone stocks. However, attempts at abalone release programmes have only been undertaken at experimental scales, except for Japan, where large-scale stock enhancement programmes for abalone have been undertaken since late 1960s. To evaluate the potential of stock enhancement for abalone, we analysed the release surveys of 13 case studies in Japan in terms of the overall recapture rate (number of recaptures through a lifetime/number of juveniles released), yield per release (YPR, yields from released individuals), the economic efficiency of releases (ratio of income from recaptured abalone to release cost) for each release year, and the contribution of hatchery releases to total catches for each fishing year. The average estimates for overall recapture rates (0.014,0.238) and YPR (3.1,60.3 g/individual) varied between locations and release years. The economic efficiency was estimated at 0.4,6.2. The released abalone contributed 6.9,83.5% to total catches. Hatchery releases could augment total production at some locations, but the success of release programmes would be limited by the carrying capacity at release areas, because density-dependent mortality occurred following releases in some cases. Throughout Japan, the annual catch of abalone has continuously declined from ,6500 t in 1970 to ,2000 t in the mid-1990s, despite the increase in the number of hatchery releases. Based on the estimates for YPR, the magnitude of the abalone releases on a national scale has not been sufficiently large to sustain the total production of Japanese abalone, which has primarily fluctuated according to the abundances of wild populations. Our results suggest that releases should be targeted at local populations in regions where stock enhancement is predicted to have the greatest chance of success, and the magnitude of releases should be considered carefully and determined for each region by taking the local carrying capacity into account. We also address the future prospects of abalone stock enhancement. [source]


The enhancement of cod stocks

FISH AND FISHERIES, Issue 2 2000
T. Svċsand
Atlantic cod have been a primary target for marine stock enhancement since the 1880s. In the early part of this period, hatched larvae were released in Norway, the USA and Canada. The last larval releases were conducted in Norway in 1971, and a century of cod larvae releases were halted without any clear evidence of benefit. Since the early 1980s, the focus has been on production of larger, more viable juvenile cod. Emphasis has been given to the design of tag,release programmes involving large-scale releases and ecosystem analysis in selected ecosystems. Most of this research has been carried out in Norway, where more than one million tagged juvenile cod have been released. Smaller stocking experiments have also been performed in Denmark, Sweden, the Faroe Islands and the USA. This paper reviews the major findings from these programmes. We include summaries and evaluations of rearing techniques for juvenile cod, methods of tagging and recapture, experimental fishing, migration, mortality and growth rates in the different habitats, genetic analysis, and ecosystem studies that have tried to describe the variation in the cod carrying capacity of selected release areas. Despite relatively large variation in environmental conditions, in cod production and in fishing mortality along the Norwegian coast, results indicate that, under the conditions experienced during the 1980s and 1990s, releases of juvenile cod did not significantly increase cod production and catches. The biological limitations and future prospects of Atlantic cod stock enhancement are addressed. [source]


Comparative analysis of cost factors in sturgeon fingerling production in Iranian hatcheries (2000,2004)

JOURNAL OF APPLIED ICHTHYOLOGY, Issue 5 2009
H. Salehi
Summary Production cost analysis in aquaculture is an essential exercise to assist farm managers. Economic assessment of a farm operation also provides the basis to formulate governmental aquaculture and enhancement policies in many regions. The present study employed questionnaires and interviewed managers while also using governmental statistics to gain insight into production cost variables in Iranian sturgeon hatcheries. Within a decade, production of sturgeon fingerlings for release and stock enhancement increased in Iran to more than 21 million fingerlings by 2004. Costs and contributions of various production factors were determined using data obtained from a questionnaire involving all hatcheries between 2000 and 2004. A team of experts completed the questionnaire data sets while conducting interviews at all sturgeon centres and other related departments. From 2000 to 2004 the contribution of A. persicus was 79% of the total number of sturgeon fingerlings produced followed by A. nudiventris with 7.5% and Huso huso with 6.6%. Among the various expenditures between 2000 and 2004, the costs for permanent and part-time employees contributed the greatest share of total costs, averaging 44%, with a noticeable declining trend from 51% in 2000 to 36% in 2004. Obtaining and incubating fertilized eggs averaged 22% of total costs, increasing during the same time period from 6 to 35%, respectively. On average, the 2000,2004 production cost for a single sturgeon fingerling was estimated at Rials 1667 (US$ 0.20), increasing from Rials 992 (US$ 0.12) to Rials 2623 (US$ 0.29) over these 4 years. Permanent staff at a hatchery was determined as being the principal cost, followed by costs for obtaining fertilized eggs (including broodstock handling). Over the 5-year study period the results indicated that costs for part-time labour declined yearly and, conversely, the costs of obtaining broodstocks as well as fertilizing and incubating eggs increased. Considering the background of hatchery production and stock enhancement of sturgeon species and the results of fishing data, it is possible to arrive at a first estimate of the potential contribution of Persian sturgeon farming to the total catch in Iranian waters; it is assumed that these increases were most likely through stock enhancement. [source]


Hatchery stock enhancement and conservation of sturgeon, with an emphasis on the Azov Sea populations

JOURNAL OF APPLIED ICHTHYOLOGY, Issue 4-6 2002
M. S. Chebanov
First page of article [source]


Responsible estuarine finfish stock enhancement: an Australian perspective

JOURNAL OF FISH BIOLOGY, Issue 2 2005
M. D. Taylor
The responsible approach to marine stock enhancement is a set of principles aimed at maximising the success and benefits of artificially re-stocking depleted fisheries. The benefits of such an approach are evident in the 400% increase in survival of stocked striped mullet in Hawaii through refinement of release techniques, however financially or temporally constrained stocking programs in Australia have not adhered to all principles. A pragmatic approach to address these principles is proposed, using international examples and Australian marine finfish pilot stockings of barramundi, mulloway, sand whiting, dusky flathead and black bream. Biological ranking of candidate species by estuarine residency, a low natural-mortality to growth ratio, a large L, and comparison by recreational value and available rearing technologies, show that mulloway, barramundi and sea mullet are ideal species for stocking in Australia. Australian intermittently closed opening landlocked lagoons and recreational fishing havens, especially near cities, provide experimental opportunities to apply this approach and stock suitable species through small-scale pilot experiments. This would allow evaluation of production and carrying capacity, and density dependent processes with respect to optimal stocking strategies unconfounded by emigration and commercial fishing practices. Twenty per cent of Australians fish each year, and harvest approximately 27 000 t of finfish. Stocking recreationally important species in Australia should give a greater financial benefit, which is spread across a larger cross-section of the community, compared to stocking to enhance commercial fisheries. The pragmatic application of the responsible approach, and stocking of fast growing estuarine residents into recreational fishing havens would enhance the benefit from marine stocking. [source]


Population dynamics of fisheries stock enhancement

JOURNAL OF FISH BIOLOGY, Issue 2004
K. Lorenzen
The population dynamics of fisheries stock enhancement, and its potential for generating benefits over and above those obtainable from optimal exploitation of wild stocks alone are poorly understood and highly controversial. I extend the dynamic pool theory of fishing to stock enhancement by unpacking recruitment, incorporating regulation in the recruited stock, and accounting for biological differences between wild and hatchery fish. I then analyse the dynamics of stock enhancement and its potential role in fisheries management, using the candidate stock of North Sea sole as an example. Enhancement through release of recruits or advanced juveniles is predicted to increase total yield and stock abundance, but reduce abundance of the naturally recruited stock component through compensatory responses or overfishing. Release of genetically maladapted fish reduces the effectiveness of enhancement, and is most detrimental overall if fitness of hatchery fish is only moderately compromised. As a temporary measure for rebuilding of depleted stocks, enhancement can not substitute for effort limitation, and is advantageous as an auxiliary measure only if the population has been reduced to a very low proportion of its unexploited biomass. Quantitative analysis of population dynamics is central to the responsible use of stock enhancement in fisheries management, and the necessary tools are available. [source]


Association with Underwater Structures in Hatchery-reared and Wild Red Snapper Lutjanus campechanus Juveniles

JOURNAL OF THE WORLD AQUACULTURE SOCIETY, Issue 2 2003
Reiji Masuda
Behavioral observations were conducted with red snapper juveniles to improve release strategies for stock enhancement of this species. Association with an underwater structure was compared between hatchery-reared and wild juveniles using video recording. Both hatchery-reared and wild fish tended to stay inside the structure in the daytime and outside it at night. Hatchery-reared fish spent longer periods inside the structure in the daytime, hut showed less association with the structure at night compared to the wild fish. We concluded that association behavior is innate but can be fine-tuned through experience. [source]


Genetic variation of Lates calcarifer in Peninsular Malaysia based on the cytochrome b gene

AQUACULTURE RESEARCH, Issue 15 2009
M Y Norfatimah
Abstract A 312 bp segment of the mitochondrial cytochrome b gene was sequenced from 132 sea bass Lates calcarifer individuals from nine populations across Peninsular Malaysia. Phylogenetic analysis and analysis of molecular variance within and among populations showed no significant geographical structuring. Several populations formed discrete units while others were of mixed populations. The former group suggests a low gene flow among some populations while the latter suggests that widespread translocations have impacted the other wild and cultured local populations. The data from this study have important implications for fishery management, conservation of sea bass stocks and translocation policy for aquaculture and stock enhancement in Peninsular Malaysia. [source]


Strategies for the capture and transport of bonefish, Albula vulpes, from tidal creeks to a marine research laboratory for long-term holding

AQUACULTURE RESEARCH, Issue 13 2009
Karen J Murchie
Abstract Throughout their circumtropical distribution, bonefish (Albula spp.) play a vital role in local economies as a highly prized sport fish. Recent interest in stock enhancement to sustain bonefish fisheries has led to the recognition that there currently are no data on how to live capture large numbers of adults (potential broodstock), transport them to captive facilities and how to handle them to ensure high survival. The objective of this study was to develop strategies for the capture and relocation of wild bonefish to a marine research holding facility to enable basic research and explore the potential for culturing bonefish for stock enhancement. Bonefish Albula vulpes (Linnaeus, 1758) were captured as they entered or left tidal creeks on Eleuthera, The Bahamas using seine nets and then transported by boat or truck to the laboratory. The relocation process evoked secondary stress responses at the metabolic, osmoregulatory and haematological levels as indicated by changes in blood glucose, lactate, haematocrit and ion values, relative to control fish. Physical and behavioural disturbances were also observed in bonefish that were unable to acclimate to laboratory conditions. Successful laboratory acclimation and long-term holding of wild bonefish was achieved through an adaptive learning process, whereby we identified a series of strategies and handling techniques to facilitate the acclimation of wild adult bonefish to captivity. This knowledge will enable future laboratory research on bonefish and is a prerequisite to the culture of this highly prized sport fish, and other sub-tropical and tropical marine species. [source]


Development of germ cells and reproductive biology in the sipunculid Phascolosoma esculenta

AQUACULTURE RESEARCH, Issue 3 2009
Xue-Ping Ying
Abstract Sipuncula are of increasing interest for fisheries and aquaculture in China. Sustainable harvests will rely on a better knowledge of reproductive characteristics and stock enhancement. Here, we investigated the structural characteristics of and seasonal changes in germ cell development of the sipunculid Phascolosoma esculenta from the south-eastern coast of Zhejiang, China. An annual survey of egg numbers in the coelom (body cavity) fluid by light and electron microscopy of the females indicates that P. esculenta is dioecious. No defined gonad but dissociated germ cells were found in the coelomic cavity during the 1-year observation. The germ cells showed multiplication and development in the coelomic cavity. Reproduction took place from May to September, with a peak in July and August. The oogenesis can be divided into four phases: cell proliferation, pre-vitellogenesis, vitellogenesis and egg envelope formation and maturation. The process of spermatogenesis can also be divided into four phases: cell multiplication, cell growth, cell maturation and metamorphosis. Monthly changes in the relative number of eggs in each stage indicate that P. esculenta lays eggs in batches. The sperm thrives in the coelomic fluid in the form of cell groups with patterns of genesis and release similar to those of the eggs. Eggs of P. esculenta were fertilized only when reaching the nephridium. The sex ratio was about 1:1 throughout the year. [source]


Biological and technical evaluation of the potential of marine and anadromous fish species for cold-water mariculture

AQUACULTURE RESEARCH, Issue 2 2002
N R Le François
Abstract Concern about the overexploitation of wild aquatic resources, the slow recovery of the groundfish fisheries and the need to encourage the diversification of the mariculture industry of the province of Quebec (Canada) all provided strong incentive to explore the potential of a wide selection of marine and anadromous fish species for cold-water mariculture. Starting from a list of over 45 indigenous fish species of potential commercial interest, a biotechnical review was initiated. Technical sheets for each species were produced and aquaculture-based selection criteria covering three aquaculture approaches of development (complete life cycle, on-growing and stock enhancement) were examined. Species were ranked according to their degree of suitability for the given biological parameters. The final classification analysis within the complete life cycle production strategy positioned the Atlantic wolffish as the top candidate species (91%) followed by the spotted wolffish and Arctic charr (87%). Growth rate, optimal growth temperature, duration of the weaning period, minimal lethal temperature, larval size and feed requirements were the determining criteria. The on-growing scenario final results ranked Arctic charr first (84%) followed by Atlantic cod (79%) and Atlantic halibut (74%) mostly owing to their growth rate at low temperature and optimal growth temperature criteria. Stock enhancement programmes should concentrate their efforts on the striped bass (56%), the haddock (54%) and the Atlantic sturgeon (34%) based on their growth rate, fishery status, landing price and the availability of impact studies. [source]


The future of stock enhancements: lessons for hatchery practice from conservation biology

FISH AND FISHERIES, Issue 2 2002
Culum Brown
Abstract The world's fish species are under threat from habitat degradation and over-exploitation. In many instances, attempts to bolster stocks have been made by rearing fish in hatcheries and releasing them into the wild. Fisheries restocking programmes have primarily headed these attempts. However, a substantial number of endangered species recovery programmes also rely on the release of hatchery-reared individuals to ensure long-term population viability. Fisheries scientists have known about the behavioural deficits displayed by hatchery-reared fish and the resultant poor survival rates in the wild for over a century. Whilst there remain considerable gaps in our knowledge about the exact causes of post-release mortality, or their relative contributions, it is clear that significant improvements could be made by rethinking the ways in which hatchery fish are reared, prepared for release and eventually liberated. We emphasize that the focus of fisheries research must now shift from husbandry to improving post-release behavioural performance. In this paper we take a leaf out of the conservation biology literature, paying particular attention to the recent developments in reintroduction biology. Conservation reintroduction techniques including environmental enrichment, life-skills training, and soft release protocols are reviewed and we reflect on their application to fisheries restocking programmes. It emerges that many of the methods examined could be implemented by hatcheries with relative ease and could potentially provide large increases in the probability of survival of hatchery-reared fish. Several of the necessary measures need not be time-consuming or expensive and many could be applied at the hatchery level without any further experimentation. [source]